Pipe-line stopper



p 1949- MCDONALD D. SMITH ETAL 2,482,696

PIPE-LINE STOPPER Filed Nov. 29, 1944 5 Sheets-Sheet l 77ZD022a/d 2 57722272 Gorkam Freer- P 1949- M DONALD D. SMITH ETAL 2,432,695

PIPE-LINE STOPPER Filed Nov. 29, 1944 5 Sheets-Sheet;

772007244 2. 5mm, Gorfiam F Freak 5 Shets-Sheet 3 P 1949' MCDONALD D. SMITH ETAL PIPE-LINE STOPPER Filed Nov. 29, 1944 Sept 20, 1949.

M DONALD D. SMITH ET AL PIPE-LINE STOPPER 5 Sheets-Sheet 4 Filed Nov. 29, 1944 ill/A 57722272, Gar/2am EFr'eer.

p 1949- MCDONALD D. SMITH EI'AL. 2,482,696

' PIPE-LINE STOPPER Filed Npv. 29, 1944 5 Sheets-Sheet 5 Patented Sept. 20, I949 mois Application November 29, 1944; 'SriaFNo. 565301- 24-Claims. l

The present;inverition ri-lates to' pipe line stoppensei the' type irisertable -intoa pressure main f-through' alateral opening in i the main; An 5 objeet f v the inventiomis-to -pro'vide 'a 'compact and relatively simple stopper which --oa-n be inserted through-Mama opemn er substantially smaller diahiieter thah fheinside diameter of A the mai and-then can-'JoieeXparided so as toproviele a rigid barrier aeross thinain'andone which is-s'u-bst'anaiairgieakpr eef.

In the-accompanying drawings; the invention 'Aecordingte the first embodiment,- th-e stopper includes a rubber bag issub'sta'ntially diametrieallyv"distendedintosealing engagement with opposite-Wall ioortions of the maih to provide a transverse seal. In the seeond embodiment, the bag is omitted and the-transverse-seal isperfected bymeansflof the engagemeht :-ofsealing surfaces on the relatively: movable parts which =enstitute the'ba zrierr "ln xthe iirawin'gs 'Figm'e l't Shows an installation including-7a "stopper!in aecoridance witli the -fi-rsjt e'mbodimn t "midi eontrolzmeans therefor in aprel-iminary association w-i-tlm'the main the parts'being shown-in -section"substantiallyeonlthe axis:oi- ;the main.:

F.ig1-1re= j2 iseamelevation aoftheupp'er'portion of the linstallation-iofsEi'gure 1 seen from th'e "leftfifth" tterafigure.

Fligure-e3gis a section substantially-on line i 3 ofiFig-ureL Figure 4 :isisa ,:viewu1i'ker that of Figure -'3,' "but iangelyrin elevation,

Figure 55s :azbottom-iplan-'- viewrot an operating 'member:sulistantiallyion line "5 -5 of Figure-4.-

Figure-6 isiagviewslike that ofFigure 4* but with theyzstopper:imoperative dispositions Figure 7 is ahseotion-rorrline. l lofml igure '6. Figune ilais a; section on line8- -"8-of Figure 6; Fishtail is azsectton'om line '9-':-9"of -Fi'gu'r'e*6. Ei'e n'e glOais'ameetion;onsline l 0; H) of Figure 7. Fienreall is aisectionvoniline 1| l of Figure- 7. i ure 211s a :view. taken iomlin'e I2' l 2I0f-iF'iguse 17 withrtheibagzrempved. V

--Figure;13 Fis amelevatioheof :the stopper-ofi the seeondsembbdiment withnparts removed;

Eigune-=;14 is an.-'i'sometricview:of the stopper-of "the seconds-embodiment withfthe parts in operatizve-xiisp' asitione Y .ig-ure 154s as'e'ctionion line |5'l5 of-Figure '14., I

I Figure 16 showsfithexstopper "ofiEigure 14 in operative association with aim'ain. 5 igur'e 17' i's a seetibnrontlinee H ll of- Figur'e Figure 18 showsian installation with the stopper of Figures '13 tozl65in'sa.:pre1imirraryrasso- 'ei'ati'on"with the main; and

Figure 19 is a :section 1' aniline l 9''-l 9 :of Figure 18.- e o Referring tofFiigure-sl; preliminary to the use of apparatus in 'ialccbrdan'ee with the present invention, a eylindriealcollar 25;is:.1we1'dd toithemain with 'its' axis' intersecting rthe :axis of the main, aficontrol valve -26eisseburedto the flange ofcollar '25; -boring equipm entiissecuredtofvalve 26, a hole '2 '!-;"-whos'e diameter is the:same as the "inner diameter 'ofeoll'ar 254s bored, the1dri1l withdrawn, valve 26 closed, and "the: boring equipment-removed. This isall raocomplished in known'mannerwithoutany;substantialloss of pressure from the main. "I'here is nowse'cured to the valve '26 apparatus including a barrel or elongated bonnet 'z5fla whieh housesa stopper S inaecordanoe with the inventionr In: Fig-ure l the stopper is shown as having been lowered, after opening valve--26, fr'omth'e barrelzararrdinto a preliminary dispositionin'tHe main; 30 The stopperzihcludes a vertieal post or elongatedbody lei-which hasatransversely fcurved outer face seof somewhat less than V- semioyliiidrid'ai exteiit, 'its radius being'iess than that oi th'e: opening al -by-eom'ething less than the 'th'ickiies s df the ruiiber bag- 3L '(By'th'e' word rubb'er;"as used herein, is "meant I any flexible rubber or rubbei lik'e material, natural or: artifitiial.) Thejsiirfaee 3il terminats' upwardly 'at an arcuate shoulder 32 T which, when the body is 4 positioned ir-i the main, as shown in Figure 1, is

horizontal and-slightly BBIOWfthEIOWl-Jsb point'of the opening 27. As mti st cleatly'shown in Figure 3; the IdWerend otthe-body "has-a face 33 durvedfas the interior of the mainand conform- "Ming-the bottom ofthe bag 3! th'eretog although preferably the bag wil'l he "curve.

Above tlietshbulder "32 body-29 "has a curved surface fifieoaxial -with the'surfaoe 30 which surfalse is eprovided with ar'r ax'ially extending unmoldd T with "this extensions 54 and 55 'on no greater radius, as the between the ring and end of a cylindrical housing 65 which dercut groove 35, Figures 1 and 8. On its inner side the body 29 has a flat vertical face 36 provided with an axially extending undercut groove 31 which runs from the top of the body nearly to its lower end as particularly shown in Figure 1.

Pivoted to the lower end of the body 29 on a bolt or pin 38 which is radially disposed rela tive to the face 38 and bi-sects the arc thereof, is a pair of vanes or wings 39 and 40. The vanes are mounted for swinging in face-to-face contact in parallel planes. In what will be termed the folded relation of the vanes, as particularly shown in Figure 3, a straight upper edge portion M of van 3a is in contact with the inner wall of the undistended bag 3|, and the opposite edge 42 of the vane, which is curved substantially as the inner curvature of the main is in contact with the opposite inner wall of the bag. Vane 40 has similar edge portions 43 and 4 4. At their lower portions the vanes are provided with wedge-shaped formations 45 and 45, respectively, each in the plane of the other vane and con nected with the latter by means of tension springs Ill and 48, partly received in sockets in portions 45 and 4 6, respectively, and acting to pull the vanes into the folded relation of Figure '3 and to maintain them there.

Reference numeral 49 represents a camslide having a rib B engaged in the groove 31 of the body 29. The slide 49 is provided with diagonally extending offset cam faces 5| and 52 in the planes of vanes 39and respectively. The slide has a curved outer face 53 whose curvature is complementary to the curved face 3d of the body 28 as shown in Figures 8 and 9 except for lower extensions 54 and 55, Figure 3, which terminate outwardly in the cylinder of the body surface .30. In Figure 3 it will be noted that the cam faces 5i and 52 are continued in the so that the lower extremities of the cam surfaces are positioned outwardly of the angular end edges 56 and 51 which extend between the edges M and 42 and 43 and 44 of the vanes 39 and 48, respectively,

Formed in the curved face of slide 49 are a number of axially extending parallel undercut grooves 58 which slidably receive splines 59 whose upper ends are joined by an arcuate head portion 65, Figures 4, '7 and 9. As can be seen in Figure 9 the ends of the head 60 terminate in the adjacent face planes of vanes 39 and as and the outer curvature of the head is on the same radius as that of the body face 30. The lower ends of the splines are joined by a foot portion El which has the same curvature and arcuate extent as the head 60, its bottom edge being curved substantially as the inside of the main,

as shown in Figure 4. Secured to the slide near the lower end thereof and between the head and foot portions fill and 6| is an arcuate bar 62 which has the same outside curvature, or at least said portions. The distance between the upper surface of the head 6i! and the bottom of the foot BI is the same as the distance between the shoulder 32 and the bottom 33 of the body 29.

The top of the bag 3! is turned of a metal ring 63 which upper part of the body and over on top freely embraces the slide and is clamped a flange 54 at the lower surrounds the upper portions of the body and slide for free axial movement, relative turning movement being prevented by a rib 65a on housing 65 engaged in groove 35 of the body. The housing has a top wall 65 from which a coaxial tubular extension projects upwardly through a gland 68 at the top of the barrel 28, the gland including a nut 59. Ring 53 has the same outer radius as the body shoulder 32 and has affixed to its lower face a rubber body II] in the form of a ring of the same radius. In the normal position of parts shown in Figures 1, 3 and 4 the lower face of the rubber ring is substantially above the body shoulder 32 and consequently cannot interfere with the swinging of the vanes. Head 60 is held by bar 62 substantially against the bottom of the ring 18 and the foot 6| is in the elevated position shown in Figures 1 and 4.

A rod 1! extends through the tubular extension 61 and has its lower end rotatably received in a bore l2 formed in the upper end of slide 19 on the axis of its curved surface 53. Bore I2 terminates upwardly in a coaxial enlargement which receives an annular rib l3 integral with rod H, the enlargement being threaded above the rib and having engaged therein a retaining ring 14 so that a swivel connection is established between the slide and the rod. 1

Secured to the upper end of barrel 28 is a cross bar 15 which supports upright rods 16 and 11 whose common axial plane includes the axis of rod H. A cross head 18 is slidable on rods 15 and Ti and is fixedly clamped and keyed to the tube 61. The upper end of the latter has threaded and fixed thereon a ring 19 which is received in an annular channel of a nut which is threaded on the threaded upper end of rod ll. The latter is threaded in a cross bar 8| which is secured to the upper ends of rod 15 and 11 between abutment nuts 82 and retaining nuts 83. The upper extremity of rod H is squared to receive any suitable wrench 84.

When the apparatus is to be transported, the stopper Sis pulled completely within the barrel 28 and in order that this may be conveniently accomplished, the cross-head 18 and nuts 83 may be removed so that the cross-bar may be pulled away from the barrel, using handles 85 on the bar, so that rod H, which is followed by the tube 61 in view of the swivel connection I9, 80, will pull the stopper into the barrel. While the body 29 will ordinarily be satisfactorily held up by the bag, it can be provided at its upper end with a stop 86 overlying groove 3'! so as .to be engageable by the upper end of the slide 49. The stopper is retainable in retracted position by means of a clamping ring 87 which abuts the top of nut 69. After the barrel 28 has been positioned on valve 26, Figure 1, the clamping ring 81 is loosened and, valve 23 having been opened, the operator pulls downwardly on handles 85 so as to bring the stopper into the position shown and nuts 83 and cross-head 18 are applied. The common axial plane of rods H, 15 and TI is at right angles to the pivot pin 38 and so by positioning this plane at right angles to the axis of the main, the positioning of pin 33 in proper axially extending relation to the main 'will be assured.

With the parts positioned as shown in Figure 1, wrench 85 is turned so as to thread rod H downwardly, nut 80 being held so that its elevation is maintained. As slide 49 lowers, the cam faces 5| and 52 swing vanes 39 and 40, respectively, counter-clockwise and clockwise, Figure 3, until they assume the expanded relation shown in Figures 6, 7, 9, 10 and 11 wherein they tightly conform opposite sides of the bag to opposite wall portions of the main. The slide hasalower surfacets, Figure t, roundedwm thevsames eurveas the bottom surface 33 of the body 29 and when these I surfaces 601119 intofre'gister;ithe'lower end of rib 50 niafi 'abut the bottom waliiofz: groove- 3"! so that extended bottom "seating =of*thelda 10ngitudiliahy our-1e main, 'isafiordedi the; seating Bel g augmented" by the lower portions: oi the 'vanes'includihg herormationsiwandtm; *I-IoW- ever, it will i ii d" airilyb desihabl'e' 'to 'Dnovi'de clearance hetween ower" end "o1? rih 50;:and the-bottom of "gro'ove I 'to' promoteaetiualikingt akationoi the'vanes-J Whil'e theslide is moving dbwnwandlygsits abutment 'p'ortieh se en-gages the-top of 00 flame which i'ncludes:ribs efi and headtnso the 5 frame is carrie hhwnwardls to "the position shown: in. Figure 7"-w1th a= fi1i therbottom seatmg eir'eet by thefo'ot, the 'topsurface'pfthe head b'e mg hroughtinto the -plane or the top surfahe of the body shouldertz. this point nut" it is threaded down o n rod it, thus lowering thenousi'rig 65"an'd' rings 63" and "1 until theqatter seats against" the ihterru tectannmar seatprovided-by the ted-y'shoulde'r '32:and he head so; The origi hal elvatedlpesitibnof thering 10' permitted the free projection ofthe vanes which would be ohstr'ucted' the rih'g were on shoulder 32' whose level is beliiw the hpperegetremities of the folded vanes. Further downward movement of housing tz'i'causes rint; Til -t0 ta -bulged outwardl thus forcing" theta-g 'into tightperipheraiengagement with the= wall: of "opening 21.. "While pe'ri' t nheral engagement T's-mentioned, it will be understood that' itis only'esseht'i'al' that-the up-strealn'half 0f the O'De'n'i'ng be seal-es. "In Figure I the upstream side assumed to be to the left oi 'the stopper;

'Fh'body 29 and' the s'l ide 491pr0vide-a rigid support for the expanded varies and the stopper 'Wil l stand a,- i2'a." i r1st any pressure" apt to been} countered. Due to the "extended bottom seating slide, and to-thera-et that these aT'e borne Dower fu-lly downwardly by thetube- GT- arid the r'o' tf ll, there is. little possibility of thestop being canted 'bythe up-stream pressure. However, to" take care of extreiner'eaction, a'lug' 65b, Fight-e 1, may be provided on the-housing -05 "at its-top on the upstream side, this lu-g' bearing against 'the inner wall of the barrel 128. 'It' will'be'seenthat where the distending action of the'vanesterminates at'thei r tops, the distendihg action of ring 1 0 begins so that there is a continuous seal throughout thein'si'de of the main.

When the stopper is to he"reh1oved, 'n-ut "8-0 is thheadedupwardly relative'ito r-odj TI so that ring I0 is returned to "the-position shown in' Figu-res 1,3 and 4. I-Iere'uponnut 80isd ag ai-nst rotation and rod 70 is threadedu-pvv-ard-Iy to'return' the slide and associated parts 'to therelation shown in Figures '1, 3-and-4."'The fbag actsjto return the varies but their return isassuredf-by the'springs H and 48.

-'l he'stopper can now be pulled up into the barrel 28 as previously describedjttalve -26 shut, and the barrel removed. n

In the second embodiment, shoWn'i-n Figures 13 t0 l9, 'the body, designated by the rferfioe numeral 9%,.is general ly the ame as in-the first embodiment; having" upper and-lower outer cylindrical surfaces -9'I and-"92 separated "by the 'annular "shQu-merta he inner fiat face r the body being provided "th e. longitudinally;extending has secured thereto a rubber covering or"stri'p"!l5,

'undereutgrhovell l. The'loottomfao oi thefbqdt ll-I "for-engagement by I plate I I2 10 "engagement exists the bot'tom offthe rubber ring 'mien'rouiroajis"turned .to swalfdly, thetu'be 1 rs land associated elements will :Qf the vanes si'nee this "case; I :previbushr mentioned; the rubber .loag i'somitted; vanes 96.- 'andi 111 "are pitvoted to the. body III-the SEHlE- manner as; be.- fore; r a'reuate' edges being, provided with n-'bbcr; overiug's 08 2.113 991;. respectively. which alsoccvei the curved faces ofuthe wedge-shaped portions I00 and IOI. The latter-also havei'ub :lcier' tiakzil'igfs F02: and ="I-03 which are: aperture'd to clear the return: springs. Asis most clearly seen iizr -"l ig eIIlZ'the and 91" of the vanes; these 'faeesbeihg remote from the body 90, are innarallel lanes ihtlined upwardly and: toward tnetouy; a rrd'zl th- 'o'uten face of portibn l lll is similarly inclined.

The slide has a rib I08 slidable in thegroove 9'4 and the 'utffhi of the slide is cyli-ndrieafon thesame radius as. the portion 92 of the -'1 he 1 sliiie has 'swivled' thereto an operating I09 which passes upwardly, reciproca'bly but with sealing oontaict', through a rubber block or bdy I I[T whidhfis adhei'eti to'a plate H I Whichislh turn secured to'a pl-ate II'Z frOm'Whichm sa tubularrnember 'II'3='aroundrod I 08'. 'Elemen ts H 0, I I I a'n' d -I I 2 are ofcircular cross-sectibn 'dn the'same radius as body portion 92 and areeach provided with an axially extendihg openi ng slidingin theruhbe'r ring I10 beingshown at I M in Figure 1'7 and the other openings being lofthe same shape. Consequently; the body ll0 isheld against-turning by piatepornons mand H2 and these are in turn held against turni-hghy tube II 3 through the cross 'head IIB. The slide I04 has inner races-mussels parallel relation to the faces 96 and '01 and provided" with ru-lolo erx'coven ihes l t-55am tot, Figure '15, andthe bottom-rate of the slide has afrubher covering. I0 1. Astop l ffi is secured-to the 'upper'end of body portion and when "this I-IB is'sp acedi-somewhat above the top of sIi'de I04 ias shown in Figuresfls and 19.

The latter fighresindieate the relation of. parts lowered into the main,

with the first emboai may be engaged .withthe swivel nut. I I8sothat move the slide down-- mgvetherewithi'n constant relation. Downward 'hibverneht ofgthe slide causes the vanes to be expand'edliy'the cam faces I04a and I0 Ib without i'ntehference with the slightly elevated rubber that-their rubber shoes are forced into :st- 'iit eneagem n with opposite perm-ens, of the mam. Asthis action is completed or substantial-lys theshqe I01 at the bottom of ,the slide comes into con-tactwith the main and the rubher fa'cings l flsa'nd m6 wed gi-ngly engagev-an'e surfaces ;and 911 and. the outer face of portion I00 form. a sealtherewith, thelower ends oi .the earn. faces IBM and I04?) sealing with'the pads 'itflz and I03. At this point, the top of the slide is level with. the body shoulder 03. Lock nut .IIIis now loosenedand nut H8 is threaded downwardly so that the rubber ring I It! is pressed against body shoulder 93 and the top of the slide and thus is expandedi i'nto tight peripheral engagement with the opening IIQ in the maima-s shown {in Figure 16. The rubber block is also bulged downwardlyto lose any gaps: at the upper .so th-at a complete seal. is

provided;

The same rigid substantially non-leaking barrier as in the first embodiment is thus provided and it will be evident that any undue tendency to cant under pressure will be prevented by the engagement of plate H2 with the neck fitting, Figure 16. The upstream side is assumed to be at the left, Figure 19.

From the above, it will be evident that the in,- vention is susceptible of varied embodiment, and consequently we do not limit ourselves to specific form and arrangement ofparts except as in the following claims. Positional terms, such as upright, etc., are used as a matter of convenience and not of limitation.

We claim:

1. A pipe line stopper comprising an elongated rigid body, a pair of vanes pivoted to said body on an axis extending transversely of the body, said vanes being ioldable together about said axis and when so folded being insertable together with said body through a lateral opening in a main with said axis extending lengthwise of the main, said opening being of smaller diameter than the inside diameter of the main, and means associated with said body and operable from the exterior of the main to oppositely project said vanes by swinging them about said axis, said vanes having continuous outer edges curved substantially as the inside of the main, the edges of each of said vanes when projected extending from said opening substantially to the opposite side of said main.

2. A stopper according to claim 1 including spring means acting to retract said vanes.

3. A pipe line stopper comprising an elongated rigid body, a pair of vanes pivoted to said body on an axis extending transversely of the body, said vanes being foldable together about said axis, a slide associated with said body for relative lengthwise reciprocation, said slide having cam faces cooperable with said vanes respectively and adapted upon movement of the slide in one direction to move said vanes from folded to oppositely projected relation; said body, slide and vanes being insertable, when the vanes are folded, through a lateral opening in a main with said axis extending lengthwise of the main, said opening having a diameter less than the inside diameter of the main, and means operable from the exterior of the main for moving said slide whereby to oppositely project said vanes by swinging them about said axis, said vanes having continuous outer edges curved substantially as the inside of the main, the edges of each of said vanes when projected extending from said opening substantially to the opposite side of said main.

4. A stopper according to claim 3 wherein said body and vanes are enveloped by an imperforate rubber bag whose closed end abuts the wall of the main opposite said opening when the stopper is operatively disposed in the main and whose sides are distended into contact with the inside of the main when said vanes are projected.

5. A stopper according to claim 3 wherein said body and vanes are enveloped by an imperforate rubber bag whose closed end abuts the wall of the main opposite said opening when the stopper is operatively disposed in the main and Whose sides are distended into contact with the inside of the main when said vanes are projected, wherein the bag has a portion which is in said opening when the stopper is operatively disposed, and wherein means are provided for expanding said portion into sealing engagement with at least the upstream half of the edge of said open- 6. A stopper according to claim 3 including spring means acting to return said vanes when said slide is reversely moved.

7. A pipe line stopper comprising an elongated rigid body, a pair of vanes pivoted to said body on an axis extendingtransversely of the body for relative swinging in parallel planes, said vanes being foldable together about said axis in mutually lapping arrangement, a slide associated with said body for relative lengthwise reciprocation, said slide having offset-cam faces cooperable with said vanes respectively and adapted upon movement of the slide in one direction to move said vanes from folded to oppositely projected relation; said body, slide and vanes being insertable, when the vanes are folded, through a lateral opening in a main with said axis extending lengthwise of the latter, said opening having a diameter less than the inside diameter of the main, and means operable from the exterior of the main for moving said slide whereby to oppositely project said vanes by swinging them about said axis, said vanes having continuous outer edges curved substantially as the inside of the main, the edges of each of said vanes when projected extending from said opening substantially to the opposite side of said main.

8. A stopper according to claim '7 wherein said cam faces are diagonally disposed on said slide.

9. A pipe line stopper comprising an elongated rigid upright body, a pair of vanes pivoted to said body at one side thereof adjacent the lower end thereof on an axis extending transversely of the body, said vanes being foldable together about said axis and when so folded being insertable with said body through a lateral opening in a main with said axis extending lengthwise of the main, said opening being of smaller diameter than the inside diameter of the main, an arcuate horizontal shoulder on the other side of said body below the upper extremities of the folded vanes, means associated with said body and operable from the exterior of the main to oppositely project said vanes by swinging them about said axis, said vanes having outer edges curved substantially as the inside of the main, a rubber body above said shoulder substantially conforming in curvature thereto and extending across the swinging planes of said vanes, and means connected to said rubber body and operable from the exterior of the main for lifting said rubber body away from said shoulder to permit free projection of said vanes and for lowering said rubher body and pressing it against said shoulder to bulge it beyond the latter.

10. Apparatus according to claim 9 wherein the rubber body is in the form of a ring, and wherein means is provided including an arcuate shoulder for supportin said ring in conjunction with the body shoulder.

11. Apparatus according to claim 9 wherein the rubber body is in the form of a ring, wherein the vane projecting means includes a slide movable longitudinally of said upright body, and wherein the slide carries a shoulder which, upon the lowering of the slide to completely project the vanes, comes into position to support said ring in conjunction with the body shoulder.

12. Apparatus according to claim 9 wherein a rubber bag envelopes said body and vanes and extends upwardly above said rubber body and is connected to the lifting and pressing means for the latter.

13. Apparatus according to claim 9 wherein the rubber bod is in the form of a ring wherein the vane projecting means includes a slide movable longitudinally of said upright body, andwherein the slide has a top surface which, upon the lowering of the slide to completely project the vanes, comes into position to support said ring in conjunction with the body shoulder.

14. Apparatus according to claim 9 wherein the rubber body is in the form of a ring wherein the vane projecting means includes a slide movable longitudinally of said upright body, wherein the curved edges of the vanes are rubber covered, and wherein the vanes and slide have rubber covered inclined faces which Wedge together to form a seal between the vanes and the slide when the latter is completely lowered.

15. A pipe line stopper comprising an elongated rigid body, a pair of vanes pivoted to said body on an axis extending transversely of the body, said vanes being foldable together about said axis, a slide associated with said body for relative lengthwise reciprocation, said slide having cam faces cooperable with said vanes respectively and adapted upon movement of the slide in the direction to move said vanes from folded to 013-,

positely projected relation; said body, slide and vanes being insertable, when the vanes are folded, through a lateral opening in a main with said axis extending lengthwise of the main, said opening having a diameter les than the inside diameter of the main, means operable from the exterior of the main for moving said slide whereby to oppositely project said vanes by swinging them about said axis, said vanes having outer edges curved substantially as the inside of the main and which are rubber covered, and rubber covered inclined faces on said vanes and slide which wedge together to form a seal between the vanes and the slide when the latter has fully projected said vanes.

16. A pipe line stopper comprising an elongated rigid body member and a slide member guided by said body member for longitudinal movement relative thereto, a pair of vanes normally extending longitudinally of one of said members and pivoted thereto transversely at their same ends in laterally swinging relation, said vanes when in normal relation being insertable together with said members through a lateral opening in a main smaller than the inside diameter of the main with the vanes disposed transversely of the main, means on the other of said members for projectin said vanes upon relative sliding movement of said members, said vanes having outer edges curved substantially as the inside of the main, one of said members having a foot surface curved substantially as the inside of the main, compressible means engaged between said curved surface and the bottom of the main and between said curved outer edges and the sides of the main when the stopper is inserted and the vanes are projected whereby to provide a continuous seal with the main around to said opening, a deformable sealing element surrounding said members at the ends of the vanes remote from said foot surface, and means for circumferentially distending said sealing element to seal said opening and complete a barrier across the main.

17. Structure according to claim 16 wherein the vanes are pivoted On. a common axis.

18. Structure according to claim 16 wherein the.

vanes are pivoted on a common axis and in mutually overlapping relation.

19. Structure according to claim 16 wherein 10 said compressible means is constituted by an im perforate rubber bag. 7

20. A pipe line stopper comprising an elongated rigid body member and a slide member guided by said body member for longitudinal movement rel- V ative thereto, a pair of vanes normally extending longitudinally of one of said member and pivoted thereto transversely at their same ends in laterally swinging relation, said vanes when in normal H relation being insertable together with said members through a lateral opening in a mainsmaller than the inside diameter of the main with the vanes disposed transversely of the main, means on the other of said members for projecting said vanes upon relative sliding movement of said members, said vanes having outer edges curved substantially as the inside of the main, one of said members having a foot surface curved substantially as the inside of the main, and compressible means engaged between said curved surface and the bottom of the main and between said curved outer edges and the sides of the main when the stopper is inserted and the vanes are projected, whereby to provide a continuous seal between the stopper and main around to said opening.

21. Structure according to claim 20 wherein the vanes are pivoted on a common axis.

22. Structure according to claim 20 wherein the vanes are pivoted on a common axis and in mutually overlappin relation.

23. Structure according to claim 20 wherein said compressible means is constituted by an imperforate rubber bag.

24. A pipe line stopper comprising an elongated rigid body member and a slide member guided by said body member for longitudinal movement relative thereto, a pair of vanes normally extending longitudinally of one of said members and pivoted thereto transversely at their same ends in laterally swinging relation, said vanes when in normal relation being insertable together with said members through a lateral opening in a main smaller than the inside diameter of the main with the vanes disposed transversely of the main, the pivot point of said vanes being located adjacent one side wall of the conduit when said vanes are inserted, means on the other of said members for separating'the free end of said vanes to projec-t said vanes upon relative sliding movement of said members, said vanes having continuous outer edges curved substantially as the inside of the main, one of said members havin a foot surface curved substantially as the inside of the main, and compressible means engaged between said curved surface and the bottom of the main and between said curved outer edges and the sides of the main when the stopper is inserted and the vanes are projected, the edges of each of said vanes when projected extending from said opening substantially to said curved foot surface, whereby to provide a continuous seal between the stopper and main around to said opening.

McDONALD D. SMITH. GORHAM F. FREER.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PAI'ENTS Disclaimer 2,482,696.-M0D0nald D. Smith, Washington, D. G., and Gorham F. Fmer,

Arlington, Va. PIPE-LINE STOPPER. Patent dated Sept. 20, 1949. Disclaimer filed May 3-1, 1951, by the assignee, M ueZZer 00.

Hereby enters this disclaimer to claims 20 and 24 of said patent.

[Ofjfic'ial Gazette July 10, 1.951.] v 

